Institute of Molecular Pathogenesis, Friedrich-Loeffler-Institut/Federal Research Institute for Animal Health, Jena, Germany.
Institute of Diagnostic Virology, Friedrich-Loeffler-Institut/Federal Research Institute for Animal Health, Greifswald - Insel Riems, Germany.
Transbound Emerg Dis. 2018 Jun;65(3):746-757. doi: 10.1111/tbed.12799. Epub 2018 Jan 10.
On the Mediterranean island of Corsica, cohabitation between sympatric domestic pigs and Eurasian wild boar (Sus scrofa) is common and widespread and can facilitate the maintenance and dissemination of several pathogens detrimental for the pig industry or human health. In this study, we monitored a population of free-ranging domestic pigs reared in extensive conditions within a 800-ha property located in Central Corsica which was frequently visited by a sympatric population of wild boar between 2013 and 2015. We used GPS collars to assess evidence of a spatially shared environment. Subsequently, we analysed by PFGE of XbaI-restricted DNA if those populations shared faecal Escherichia coli clones that would indicate contact and compared these results with those collected in a distant (separated by at least 50 km) population of wild boar used as control. Results showed that one of eight wild boars sampled in the study area shed E. coli XbaI clones identical to clones isolated from domestic pig sounders from the farm, while wild boar populations sampled in distant parts of the study area shared no identical clone with the domestic pigs monitored. Interestingly, within the sampled pigs, two identical clones were found in 2013 and in 2015, indicating a long-time persisting colonization type. Although the method of isolation of E. coli and PFGE typing of the isolates requires intensive laboratory work, it is applicable under field conditions to monitor potential infectious contacts. It also provides evidence of exchange of microorganisms between sympatric domestic pigs and wild boar populations.
在地中海科西嘉岛上,家养猪与欧洲野猪(Sus scrofa)的同域共栖现象十分常见且广泛,这可能有助于维持和传播几种对养猪业或人类健康有害的病原体。在这项研究中,我们监测了 2013 年至 2015 年间在科西嘉岛中部一个 800 公顷的农场内,自由放养的家养猪种群,该农场经常有同域野猪出没。我们使用 GPS 项圈来评估空间共享环境的证据。随后,我们通过 XbaI 限制 DNA 的 PFGE 分析来判断这些种群是否共享指示接触的粪便大肠杆菌克隆,并将这些结果与作为对照的在遥远地区(至少相距 50 公里)的野猪种群中收集的结果进行比较。结果表明,在所研究的地区,从 8 头野猪中取样的一头野猪携带的 XbaI 克隆大肠杆菌与农场的健康猪发出的克隆大肠杆菌相同,而在研究地区其他遥远地区取样的野猪种群与所监测的家养猪没有共享相同的克隆大肠杆菌。有趣的是,在所监测的猪中,2013 年和 2015 年都发现了两个相同的克隆大肠杆菌,表明存在长期持续的定植类型。尽管分离大肠杆菌的方法和 PFGE 对分离株的分型需要密集的实验室工作,但它可在野外条件下应用,以监测潜在的传染性接触。它还提供了同域家养猪和野猪种群之间微生物交换的证据。
